Solar energy is one of the renewabl

Solar energy is one of the renewable resources of energy thathas an infinite supply and is easily accessible. The photon energyfrom the sun can be converted to useable thermal energy byconcentrating it onto a highly absorbing material, which has a lowemissivity [1,2]. This objective can be achieved by using solar absorbers,which are coatings made from various combination ofmaterials, with microstructures that are able to absorb incidentphotons from solar radiation and then converting it to a hightemperature thermal energy [1]. The photo-thermal conversionefficiency of the solar absorber can be enhanced by employing aspectrally selective coating that exhibit high solar absorptance overthe entire solar spectrum (0.3e2.5 mm), and low emissivity in theinfrared region (2.5e25 mm) [2,3]. An ideal spectrally selectivecoating should exhibit an absorptance ‘‘a ¼ 100 in the solar wavelengthrange and emittance ‘‘ε ¼ 000 in the infrared wavelengthregion at high operating temperatures [4,5]. To achieve thesedesired characteristics, various concepts such as cermet coatingsand absorber-reflector tandem have been used by several researchgroups [6e9]. However, a multilayered absorbers based on metallicoxide coatings such as Cr2O3, AlxOy, MoO3, WOx, HFO2, Al2O3 etc.,have also attracted considerable attention due to their opticalproperties and good thermal stability [10e16]. A multilayer stackessentially consists of thin semi-transparent metal layer betweentwo dielectric layers can be designed to be efficient as a spectrallyselective coating.Multilayer absorbers using metals such as Pt [17], Ti [18e24], Cr[19,25], W [20], Mo [23], Zr [26], Al [27] and Ni [22] and dielectriclayers such as AlxOy [28,29], SiO2 [20e24], HFOx [21] and Al2O3 [23]have been studied as selective solar absorbers for mid and hightemperature applications. AlxOy/Pt/AlxOy deposited onto coppersubstrates using electron beam evaporation technique showed highsolar absorptance of 0.94 and thermal emittance of 0.06 at 82
C[30,31]. Selvakumar et al. [21], reported multilayers of HFOx/MO/HFO2 deposited onto copper and stainless steel using magnetronsputtering system, these multilayered thin films revealed high solarabsorptance of 0.90 and low thermal emittance of 0.15 at 82
C.Barshilia et al. reported CrxOy/Cr/Cr2O3 multilayered absorberprepared by sputtering showed good solar absorptance of 0.895and low thermal emittance of 0.06 [25]. However, solar absorbercoatings of Cr2O3, based on dielectric/metal/dielectric prepared byan electron beam evaporation concept have not been studied.Electron-beam evaporation is a promising method due to thepossibility of depositing large area with a large extentcontamination-free and no impurities.In this contribution, we have investigated the possibility ofpreparing a multilayered selective solar absorber coatings based onCr2O3/Cr/Cr2O3 by electron beam evaporation technique. Thiscoating essentially consists of a thin semi-transparent Cr layersandwiched between two dielectric layers (i.e., Cr2O3) depositedonto stainless steel. Structural and optical properties of thesecoatings have been studied and showed that multilayered coatingsof Cr2O3/Cr/Cr2O3 could be obtained by e-beam evaporation withexcellent physical and chemical properties for selective solar absorbersapplication.